Post-weaning diarrhea (PWD) caused by Escherichia coli is an endemic intestinal infection in pig farms worldwide. This disease is mostly the consequence of the presence and the multiplication in piglet’s gut of an Escherchia pathotype, named enterotoxigenic E. coli (ETEC) and in particular those that express the F4 (K88) fimbrial adhesin (ETEC: F4). The predominant serogroup of E. coli isolated from piglets with PWD worldwide is O149. Several studies have reported a significant resistance rate of O149 ETEC strains against commonly used antibiotics for the treatment of PWD, particularly, aminoglycosides. Thereby, to address therapeutic failures observed in pig farms during PWD treatment, veterinarians in Canada started using, under their responsibilities, the colistin sulfate (CS), an antibiotic not approved for farm animals in Canada. The objectives of this thesis were: to study the pharmacokinetics of CS in vitro and in vivo, to develop a sensitive method for the quantification of CS plasma concentrations in pigs, to determine the therapeutic efficacy of CS in an experimental model of PWD, and to characterize the resistance of E. coli to colistin consecutive to its therapeutic use in pigs. Simulated gastric fluid (SGF) was prepared, and after the addition of CS and pepsin to this solution, the concentrations of CS were followed by liquid chromatography coupled to tandem mass spectrometry (LC-MS/MS). A rapid degradation of CS in the SGF was observed, and the degradation products showed a greater antimicrobial activity compared to the native CS. On the other hand, the experimental challenge of piglets with an ETEC: F4 strain has not increased the CS intestinal absorption in a subclinical model of PWD in pigs. The oral administration of a therapeutic dose of CS at 50,000 IU/kg twice a day for 5 successive days to treat an experimental PWD in pigs, resulted in a significant reduction of fecal ETEC: F4 and total E. coli shedding, and in diarrhea scores but only during the treatment period.
However, CS treatment resulted in a slight increase in fecal shedding of CS resistant E. coli and did not prevent weight loss in challenged pigs. In addition, challenge with ETEC: F4 resulted in an increase of CS intestinal absorption in a clinical model of PWD.
This study has generated, for the first time, scientific data regarding CS therapeutic efficacy, its pharmacokinetic and the selection of E. coli colistin resistant in an experimental model of PWD in pigs. It also challenged the economic relevance of increasing CS oral doses to accelerate the clinical recovery of pigs. Finally, it indicated that optimal housing conditions were without other predisposing factors, effective as CS in improving clinical symptoms of experimental PWD in pigs.